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Project Introduction

Terminal Velocity Aerospace, LLC (TVA) proposes to enable commercial space activity and improve utilization of the International Space Station (ISS) through use of small reentry devices (REDs) for high-temperature materials flight testing and small payload return missions. TVA is presently developing two RED systems with a high degree of technological similarity. The first is RED-Data2, a 1.7 kg capsule that rides along with a host vehicle to collect engineering data during reentry and breakup. RED-Data2 can also serve as a test-bed for testing and demonstrating high-temperature materials in actual flight conditions. The second device, named RED-4U, is a recoverable capsule sized to accommodate a payload mass and volume equivalent to four CubeSats or more. As the next step in hardware development toward commercialization of these systems, TVA proposes to produce a flight unit RED-Data2 and an engineering development unit of RED-4U. Flight of a RED-Data2 serves as an opportunity to both demonstrate the materials flight test mission, and to demonstrate key technologies for the RED-4U mission. The RED-4U engineering development unit is an important step toward an operational RED-4U system for on-demand return of experiment samples. Both RED-Data2 and RED-4U enable innovative commercial space activity and improved utilization of the ISS.
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Anticipated Benefits

Potential NASA Commercial Applications: RED-Data2 has two main applications of benefit to NASA. The first is for reentry data to improve simulations and prediction models. This has value as NASA tackles challenges associated with orbital debris and end-of-life disposal, and for design of crewed space vehicles for survivability. The second application is for development of high temperature materials. Low-cost flight testing of materials allows for rapid qualification of materials in relevant environments for use on future government and COTS missions. The immediate application for RED-4U is to service government and commercial customers performing microgravity research on the ISS. Market research and workshops conducted by NASA and industry concluded that high-frequency payload return is an essential capability to drive high-volume research aboard the ISS. Longer-term NASA applications include sample return from asteroids or planetary bodies in support of robotic or human exploration.
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